The present disclosure is directed to a method for reducing immunoreactivity of a food including (a) incubating a food that contains at least one protein with a cross-linking enzyme to form a food that includes at least one cross-linked protein; and (b) fermenting the food including the at least one cross-linked protein with a microorganism to form a modified food including a hydrolysate of the at least one cross-linked protein, wherein (a) is performed before (b) and wherein a level of immunoreactivity of the modified food is less than a level of immunoreactivity of an unmodified food including at least one protein. Modified foods obtained from the present method are also provided.

The invention relates to a method for producing a solid transformation product of a substrate comprising the following steps: •preparing a substrate of biomass comprising carbohydrates and proteinaceous matter that originates from soya bean, rape seed, or mixtures thereof, optionally in further mixture with carbohydrates and proteinaceous matter originating from fava beans, peas, sunflower seeds, lupine, cereals, and/or grasses, •mixing said substrate with a live microorganism or a combination of live microorganisms, which live microorganism or mixture of live microorganisms is not live yeast, and adding water in an amount which provides an initial incubation mixture having a water content from 30 to 70% by weight, and a ratio of wet bulk density to dry bulk density from 0.60 to 1.45 in the resulting mixture; •incubating said initial incubation mixture for 1-240 hours at a temperature of 15-70° C.; and thereafter recovering wet solid transformation product from the incubation mixture; further comprising that the incubating step is performed as a continuous plug-flow process in a vertical, non-agitated incubation tank with inlet means for said mixture and additives and outlet means for said solid transformation product.

This abstract refers to an invention patent, for soy sauce production equipment and process, belonging to the field of the food product production media, such equipment comprised of: first set (100) comprised of: device (1), (2) to feed soybean and corn grains in their natural conditions and blended; cold-press extruder (3), receiving the soybean and corn grain blend in their natural conditions and obtaining homogeneous soy-corn agglomerate (5); size adjustment unit (6), adjusting the homogeneous soy-corn agglomerate 5 size and/or particle size; moisture adjustment unit (7); microorganism inoculation unit (8); and automated stove (9) responsible for the first fermentation for 40.00 to 72.00 hours of the crushed soy-corn mass, with adjusted moisture and inoculated with microorganism, after such fermentation the basic ingredient (koji) is obtained, which is then transferred to the second set (200), with usual construction, which processes the koji until finally obtaining the soy sauce.

The present invention relates to the food field. The invention provides a method for preparing a plant protein comprising food product with an improved property, said method comprising incubating a solution comprising a plant protein with phytase (to obtain a phytase-treated solution) and optionally processing the phytase-treated solution into a food product comprising a plant protein.

The invention relates to a water-soluble fermented pea extract. The invention also relates to a process for the preparation thereof and to the use thereof in the human and animal nutrition industry as well as in the pharmaceutical, nutraceutical and cosmetics industries.

The present disclosure is directed to a method for reducing immunoreactivity of a food including (a) incubating a food that contains at least one protein with a cross-linking enzyme to form a food that includes at least one cross-linked protein; and (b) fermenting the food including the at least one cross-linked protein with a microorganism to form a modified food including a hydrolysate of the at least one cross-linked protein, wherein (a) is performed before (b) and wherein a level of immunoreactivity of the modified food is less than a level of immunoreactivity of an unmodified food including at least one protein. Modified foods obtained from the present method are also provided.

A method of processing a fava bean composition is disclosed, the method comprising the steps of: i. providing a fava bean composition comprising fava beans, and ii. subjecting the fava bean composition to a betaglucosidase and at least one lactobacillus plantarum bacteria under dosage, time and temperature conditions selected so as to be sufficient to reduce the content of at least one of the compounds vicine and convicine, and preferably also at least one of the compounds divicine and isouramil, by at least 90 wt % as compared to the content of said compounds in the fava bean composition provided in step i. A fava bean composition obtained by the method as well as methods of producing food compositions using the fava bean composition and food compositions thus produced are also disclosed.

A modulated protein composition is described with improved flavor properties over a vegetable protein. Methods of making a modulated protein composition including the use of a volatile modulating yeast culture to ferment a vegetable protein to produce the modulated protein composition are described. Also disclosed are a fermented vegetable composition made from a modulated protein composition, and ingredients and foods including a fermented vegetable composition or a modulated protein composition.

Improved meals, improved meal compositions, and improved aquaculture feed compositions are provided based on plant meal, wherein anti-nutritional effects of one or more anti-nutritional substances (ANS) are mitigated. Also provided are methods for making and using the improved meals, improved meal compositions, and improved aquaculture feed compositions. Also provided are kits using the improved meals, improved meal compositions, and improved aquaculture feed composition. The improved meals, improved meal compositions, and improved aquaculture feed compositions demonstrate that plant meal protein digestibility may be improved, for example, for replacing fish meal protein.

A method enhancing the taste of a food product, which includes the steps of culturing a mycelial liquid tissue culture in a media, collecting a extracellular portion of the mycelial aqueous culture, e.g., the extracellular fluid of the mycelial liquid aqueous culture, and adding the collected extracellular portion fluid to a food product in an amount sufficient to enhance the food product's taste. The extracellular portion of the mycelial aqueous culture may include C. sinensis, and the culture step may be carried out for between about one and sixty days. The food products include foods, beverages, pharmaceuticals, and nutraceuticals and dairy alternative products, beverages and beverage bases, extruded and extruded/puffed products, meat imitations and extenders, baked goods and baking mixes, granola products, bar products, smoothies and juices, and soups and soup bases.